Arctic Cod – Proteus

Chick ready to fledge is waiting for the safety of darkness before leaving Cooper Island. Image Credit: Mike Morrison

While much has changed over the course of the 45 summers I have spent on Cooper Island, as warming from anthropogenic carbon emissions has modified the Arctic’s snow and ice habitats, one thing has remained constant. The sun is always above the horizon for 24 hours when I arrive in early June and it does not set until precisely August 2.

The importance and impact of that constant daylight is hard to overstate. When I arrive on the island I am not constrained by the day-night/light-dark cycle that I just left in Seattle, and I can work on whatever schedule I like while setting up camp and conducting initial colony censuses. Equally important is the high serotonin level associated with the constant daylight, which increases the optimism one typically has when starting a field season at any latitude. That optimism is also amplified by seeing the guillemots, some of whom I have known for over two decades, initiate breeding.

After the sun sets in early August, “nighttime” for the following two weeks consists of an increasing twilight period until the third week of the month, when the sky becomes dark for the first time since before my arrival. The loss of daylight is the first clear signal that the summer is ending. Despite the major impact on fieldwork and my psychological state, I used to welcome the arrival of August darkness as it allowed the guillemots to complete their breeding season. Black Guillemot young fledge under the cover of darkness. After 35 days in a nest cavity, the chicks depart the colony independent of their parents. They fly off at the darkest time of night and quickly move offshore to reduce the risk of predation by diurnal shoreline predators like gulls, jaegers or falcons.

In recent years, however, the darkness of August has been a different experience for both the colony and for me. In the first two decades of the study, when the colony was almost three times its current size and breeding success was high, large numbers of nestlings would fledge every night. My dawn nest checks during those years found many just-vacated nesting cavities which provided daily evidence of that year’s breeding success and the promise that future breeding seasons would see large numbers of birds returning to their natal colony on Cooper Island.

However, the period of August darkness became quite different as the Arctic warmed. Starting in 2002, when annual summer sea ice melt notably increased, we began to see polar bears on Cooper Island. Polar bears on land are active during the nighttime hours and it was not uncommon to wake up in late August to find that bears had flipped over the wooden nest boxes and consumed guillemot chicks, sometimes wiping out half of the colony in one night. We addressed bear predation by replacing the wooden nest boxes with bear-proof plastic cases in 2012, but the continuing loss of ice that drives the bears to land each summer is also making the guillemots’ preferred ice-associated prey, Arctic cod, unavailable to parents for feeding their young.

In the 2019 breeding season that is just ending, decreased prey availability due to both a lack of sea ice and high sea water temperature underlie the death of 75 percent of the nestlings. While hatching success was good, only 25 percent of the 130 nestlings survived until late August. In past years when sea ice was just offshore and Arctic cod were abundant, over 75 percent of the nestlings would be expected to fledge. This year’s nestling mortality occurred mainly in late July and early August, when nearby ocean waters were so warm (up to 9 C or 48 F) that even the less preferred alternative prey, sculpin, were scarce. Guillemots typically have two-chick broods with the younger chick being fed less during periods of low prey abundance. This year none of the younger siblings survived past early August, the first year without bear predation that no pair was able to fledge two chicks.

A Black Guillemot chick considers taking the big leap and leaving the safety of the island. Video Credit: George Divoky

The small number of surviving nestlings are now fledging. Having monitored them since they were eggs, including weighing them daily during the five-week nestling period, I have come to know them as individuals and am pleased when I open a nest case to find the surviving chick had left the previous night. But I am also aware that the extremely low breeding success this year, coupled with similar low success in the past two years, will cause the number of breeding pairs in the colony to continue to decline. Although the few chicks that have fledged in recent years can be expected to return to Cooper Island in two to three years, if they survive the ongoing loss of ice in their winter habitat in the Bering Sea, realistically the Cooper Island colony of Black Guillemots can never be expected to regain its past numbers nor its past success.

In earlier years both the bright start of a field season, as birds laid their eggs, and the darkness of late summer, when chicks would fly off into the night, could raise one’s spirits. This year, the darkness of August has been a period of melancholy and uncertainty of how long the colony might persist.

This field report is part of an ongoing series titled Arctic Change centered around George Divoky’s 45th field season studying Black Guillemots, sea ice, and climate change on a remote Arctic island off the coast of Alaska. To donate and support Divoky’s work on Cooper Island, visit the Friends of Cooper Island website.

Dead Heat by National Snow and Ice Data Center

Exit, Pursued by Bear by George Divoky

Dku-3_DUYAQHHwc — Arctic sea ice grows and shrinks during the year (seasonal cycle), reaching its annual minimum extent at the end of every summer (early-mid September). Currently, 2018’s sea ice extent is below the minimums from the 1980, 1990, and 2000 decadal averages. Image Credit: Zach Labe

Black Guillemots have their young remain in the nest for almost five weeks, being nearly adult weight and independent of the parents when fledging. Returning to the nest with a single fish in their bill is a breeding strategy found in all member of the genus Cepphus; it reflects the abundance and predictability of prey in the nearshore waters where parents forage while provisioning young.

For guillemots breeding in subarctic and temperate areas, where the nearshore provides a diverse and ample supply of forage fish, the strategy works well. In the Arctic, however, Mandt’s Black Guillemot has had to adapt to a different nearshore environment. Because of sea ice covering and scouring the nearshore much of the year, and the low productivity and biodiversity of the region’s marine waters, there is a typically a paucity of nearshore fish to feed their young.

The sea ice is central to supporting an ecosystem, with Arctic Cod being the primary forage fish, that can provide an abundant source of prey when the edge of the pack ice occupies the nearshore. Mandt’s Black Guillemot has been able to breed in the Arctic “nearshore” due to this presence of sea ice near their breeding colonies.

The strategy worked well as long the breeding colonies were adjacent to the Arctic pack ice and sea surface temperatures were low. These conditions were present for the first thirty years of the Cooper Island study and the growth and fledging rate of guillemot nestlings was high. Now, as summer sea ice retreats earlier and farther from the coast, nestlings and their parents could no longer count on having 35 days of high prey availability. This has resulted in decreased chick growth, increased mortality, and poor condition of those nestlings surviving to fledging.

C-8 26 days square — 2015 chicks from nest box C-8 at 26 days. Image Credit: George Divoky

This year, with ice visible north of the island until a few days ago, there was an abundance of Arctic Cod. A walk through the colony found many parents flying back to their nests with adult cod (some bigger than six inches). Chick weights and survival reflected this abundance with no mortality of nestlings yet being recorded this year.

However, since sea ice was blown offshore by strong south winds two days ago, most chicks have been losing weight with others having little or no growth. Based on what we have seen in past years, parent birds should soon be shifting their prey choice to the more predictable – but less preferred – sculpin. The abundance of sculpin – which are present in a range of water temperatures – and the parents’ ability to shift their foraging strategies will determine the fledging success of the nestlings this year.

One of the reasons nesting guillemots are such good monitors of prey availability in nearshore waters is the lengthy time parent birds have to provision their nestlings, as guillemot young stay in the nest for five weeks after hatching. During that time parent birds are foraging for most of each day and returning to the nest nearly once an hour with a fish.

P1010712 — Limited resources cause sibling aggression in nests. Image Credit: George Divoky

The current conditions of diminished sea ice have us approaching our daily nest checks with far more uncertainty than we did in the first decades of our study – when we expected chicks to have a steady growth rate until fledging. In the next few weeks a nest case could contain nestlings in poor condition, signs of hunger-motivated sibling aggression on the younger chick, or a number of large sculpin uneaten by the nestlings due to the size of their spiny bony head.

The one bright spot in our nest checks this year has been site E-11 where the chicks hatched from the first eggs laid this June. These nestlings are extremely healthy having been raised on adult Arctic Cod by two highly experienced parents, both over 20 years of age. The oldest nestling is just two to three days from fledging and demonstrates the benefits of parents laying eggs as soon as spring snowmelt allows.

An editor’s note on sea ice: The National Snow and Ice Data Center (NSIDC) reports that their 2018 projection for the sea ice minimum extent falls between the fourth and ninth lowest in the 40-year satellite record. You can read more of the agency’s monthly report here.

This field report is part of an ongoing series titled Arctic Change centered around George Divoky’s 44th field season studying Black Guillemots, sea ice, and climate change on a remote Arctic island off the coast of Alaska. To donate and support Divoky’s work on Cooper Island, visit the Friends of Cooper Island website.

Summertime and the Sea Ice is Leaving by Jenny Woodman

Seabirds and Sea Ice by George Divoky

Work Worth Doing by George Divoky

Read more

Read more